Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P02794 (ferritin)
 17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Development of the human hand plate (stages 16-17) has been analyzed with emphasis on differentiation of elements within the extracellular matrix and the composition of the mesenchymal cell surface. The epithelial-mesenchymal interface contains a basal lamina and a sublaminar matrix exhibiting: (a) collagen fibrils with characteristic 63-64 nm banding: (b) non-banded filaments, 10-15 nm in diameter; (c) ruthenium red-positive particles, 12-15 nm in diameter; and (d) attenuated threads, 3-5-5-0 nm in diameter which inter-connect particles, fibrils, filaments and the basal lamina. Processes of mesenchymal cells penetrate this matrix network. In addition to staining with ruthenium red, components of basal laminae bind to ferritin-conjugated Concanavalin A, greatest binding being localized on the mesenchymal surface of the lamina. Asymmetry of binding is removed by incubation of exposed laminae with trypsin (5 mug/ml). Regional differences in these staining and binding characteristics within the subepithelial matrix have not been observed in the hand plate. However, precartilaginous extracellular zones deep within the plate are notably unstructured in comparison to the sublaminar region. Ruthenium red-positive materials at mesenchymal cell surfaces display sensitivity to testicular hyaluronidase, Pronase and trypsin but resist removal with neuraminidase and EDTA. These features of the substrate in situ may be important in the regulation of mesenchymal cell behavior during limb morphogenesis in man.
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PMID:Ultrastructural identification of extracellular matrix and cell surface components during limb morphogenesis in man. 12 16

The glomerular basement membrane was subjected to digestion with specific enzymes to determine the chemical nature (sialoglycoproteins, collagenous peptides, or glycosaminoglycans) of the anionic sites previously demonstrated in the laminae rarae. Enzyme digestion was carried out both in situ and in vitro. Kidneys were perfused in situ with enzyme solutions followed by perfusion with fixative containing the cationic dye, ruthenium red, to detect the anionic sites. Glomerular basement membranes were isolated by detergent treatment of glomeruli and incubated with enzyme solutions, followed by incubation with cationized ferritin (pI 7.3-7.5) to label the anionic sites. Only highly purified enzymes free of proteolytic activity were used. The findings were the same both in situ and in vitro. The anionic sites were unaffected by treatment with neuraminidase, chondroitinase ABC, and testicular or leech hyaluronidase. However, they could no longer be demonstrated after digestion with crude heparinase, purified heparitinase, or Pronase or after nitrous acid oxidation. The results demonstrate that the sites contain heparan sulfate since they are removed by treatment with heparitinase and by nitrous acid oxidation-procedures specific for heparan sulfate; and that sialoglycoproteins or other glycosaminoglycans do not represent major components of these sites since the latter are not affected by digestion with neuraminidase and other glycosaminoglycan-specific enzymes. Identical findings were obtained on basement membranes in other locations (Bowman's capsule, tubule epithelium, and endothelium of peritubular capillaries). The presence of heparan sulfate in the glomerular basement membrane is discussed in relation to the charge-selective properties of the glomerular filter and in relation to its potential involvement in various types of glomerular injury.
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PMID:Presence of heparan sulfate in the glomerular basement membrane. 15 19

A Triton X-100 solubilized macromolecular complex of transferrin and a membrane constituent can be isolated by gel chromatography from rabbit reticulocytes previously incubated with 125I-labeled transferrin. The apparent molecular weight of this complex is close to that of ferritin, or about 445 000. On sodium dodecyl sulfate gel electrophoresis the complex displays two glycoprotein subunits, of molecular weights 176 000 and 95 000 in addition to transferrin. A transferrin-binding fraction with a molecular weight near 400 000, containing these subunits, can also be identified in membranes of nonincubated reticulocytes. The corresponding membrane fraction from mature erythrocytes, which have lost transferrin-binding activity, displays both protein subunits, but the 176 000 molecular weight component fails to give a PAS stain for carbohydrate. Treatment of reticulocytes with Pronase, which destroys the ability of the cells to form specific complexes with transferrin, degrades both components. We believe these results are consistent with the hypothesis that the primary transferrin receptor of the rabbit reticulocyte is a glycoprotein of molecular weight in the range 350 000-400 000, comprised of a combination of two subunits with molecular weights 176 000 and 95 000, respectively. Transferrin-binding activity appears to depend on the carbohydrate moiety of the 176 000 subunit.
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PMID:Transferrin receptor of the rabbit reticulocyte. 84 17

Two monoclonal antibodies (MOv1 and MOv2) raised against a membrane preparation of a human surgical specimen from a mucinous ovarian cystoadenocarcinoma were used to biochemically define their target antigens. The heating of peritumoral mucus-soluble extracts and the sialidase treatment of crude membrane preparations did not affect the binding capacity of MOv1 and MOv2, which, on the contrary, was significantly reduced by periodate oxidation of the same materials. Pronase digestion completely solubilized MOv1-defined antigens, whereas MOv2-defined antigens were only partially solubilized. This, however, did not affect antibody binding with digested products. These data suggest that carbohydrate residues of recognized molecules constitute the antigenic determinants and that sialic acid residues are not involved. Gel filtration on Sepharose 4B of the peritumoral mucus, solubilized either by 200 mM NaCl or Pronase, revealed that most of the antigenic activity eluted in the void-volume fractions with a high carbohydrate content and in the included fractions before the elution volume of the ferritin standard protein. When CsCl gradient equilibrium ultracentrifugation of the solubilized mucus was used, MOv1-recognized antigens sedimented with a density of 1.45 g/ml, while the MOv2-defined epitope was carried by molecules with a density of 1.52 g/ml as well as by molecules with a lower density. Using thin-layer chromatography of organic solvent extracts obtained from mucus and crude membrane preparations, only MOv2-positive molecules could be resolved as a single band of glycolipid. Altogether, these data suggest that the antigens detected by MOv1 are mainly mucins whereas the determinant recognized by MOv2 is carried by both mucins and a glycolipid. To analyze the diagnostic potential of MOv1- and MOv2-recognized molecules, we tested their presence, as soluble products, in supernatants of tumor cell lines and in peritoneal effusions from cancer patients. To this aim, we developed an immunoradiometric assay using the same monoclonal antibody in insolubilized and soluble form. Whereas MOv1-immunoradiometric assay was always negative, by MOv2-immunoradiometric assay it was possible to detect the relevant antigen in 8 of the 10 effusions from patients with well-differentiated ovarian tumors and in 5 of the 11 effusions from patients with poorly differentiated ovarian tumors, whereas the 10 control effusions from patients with various diseases were negative.
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PMID:Biochemical analysis of human ovarian cancer-associated antigens defined by murine monoclonal antibodies. 298 14

Rat peritoneal macrophages are capable, in vitro, of processing and releasing iron derived from phagocytosed, immunosensitized red cells. From 20% to 60% of the red cell iron can be returned to the culture medium in 24 h, with resident macrophages more active than inflammatory, peptone-induced macrophages. When apotransferrin is present in the culture medium, from 39% to 72% of iron released from macrophages is bound to the protein, with most of the remainder in a ferritin-like form. No distinct preference of released iron for either site of transferrin could be observed. The absence of apotransferrin depresses iron release only slightly, with much of the iron then released in a form readily available to the protein in vitro. Pronase treatment of macrophages, which abolishes their ability to bind transferrin, depresses iron release no more than 10-15%. It appears, therefore, that binding of apotransferrin to macrophages may not be essential for iron excretion by the cells.
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PMID:Interaction of transferrin with iron-loaded rat peritoneal macrophages. 394 49

The distribution of anionic sites in the basal laminae of the blood capillaries of the murine pancreas was studied in specimens fixed in ruthenium red (RR)-glutaraldehyde mixtures. The sites appeared as discrete, small (6 to 18 nm) particles distributed throughout the three laminae but concentrated primarily in the lamina rara externa, in which--spaced 80-100 nm apart--they formed a planar, partially ordered lattice comparable to that revealed by cationized ferritin in previous studies (M. Simionescu, N. Simionescu, and G. E. Palade, 1982, J. Cell Biol. 95, 425-434). The chemical nature of the anionic sites was explored by incubating fresh tissue specimens in solutions of selected enzymes before fixation in RR-glutaraldehyde mixtures. Pronase P and papain removed completely the anionic sites and left behind an extensively degraded and disorganized basal lamina. Trypsin caused the removal of anionic sites only, did not degrade the rest of the basal lamina, but detached it completely from the endothelium. Chondroitinase ABC reduced slightly the size and the surface density of RR-stainable particles, and detached focally the rest of the basal lamina from the endothelium and pericytes. Crude heparinase caused a nearly complete removal of anionic sites, and pure heparitinase gave comparable but less extensive results. Similar effects were recorded on the basal laminae of smooth muscle fibers and pancreatic acini and ducts. The results indicate that the anionic sites of all basal laminae examined are contributed primarily by heparin sulfate proteoglycans and trace amounts of chondroitin sulfate proteoglycans.
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PMID:Partial chemical characterization of the anionic sites in the basal lamina of fenestrated capillaries. 652 60

The bone-marrow sinusoidal endothelium is a cellular barrier that separates developing blood cells in the extravascular space from the peripheral circulation. Mature blood elements enter the circulation via transendothelial migration pores. In the present study, monosaccharide constituents on the bone marrow endothelium were examined using lectin-affinity cytochemistry. With lectin-horseradish and lectin-ferritin conjugates, mannosyl, N-acetylglucosaminyl, galactosyl, N-acetylgalactosaminyl, and sialic acid were localized to the luminal plasmalemma, bristle-coated pits and diaphragmed fenestrae. These were conspicuously reduced on the abluminal plasmalemma. When the tissue was treated with biotinylated lectins followed by avidin-ferritin, only a localization with wheat-germ agglutinin (sialic acid; N-acetylglucosaminyl) was observed. Pretreatment of the bone marrow with neuraminidase enabled the localization of the other monosaccharide components by the biotin-avidin method. Accumulations of carbohydrate residues were identified near the endothelium subjacent to migrating cells. Fucosyl moieties marked by Ulex europaeus agglutinin ( UEA ) reagents on the endothelium were not present. All binding was abolished by incubation of tissue and lectin conjugates with specific hapten sugars. labeling was also not present after Pronase E treatment, indicating that the identified monosaccharides are components of glycoproteins rather than glycolipids. The possible function of endothelial-surface glycoproteins as receptors for the surfaces of mature blood cells and their role in transmural migration are discussed.
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PMID:Ultrastructural localization of lectin receptors on the bone-marrow sinusoidal endothelium of the rat. 672 Jun 14

Cationized ferritin (CF) was injected interstitially to study the distribution of anionic sites on the basement membrane and abluminal aspect of the endothelium in the fenestrated capillaries of the mouse pancreas and intestinal mucosa. Extensive, but uneven removal of the basement membrane was obtained by collagenase perfusion of the vasculature before CF labeling. In the absence of collagenase treatment, CF label was essentially restricted to the lamina rara externa of the basement membrane and occurred in clusters distributed in a relatively ordered planar lattice. After collagenase digestion, labeling of the lamina rara interna and of the abluminal aspect of the endothelium became possible. In the lamina rara interna, the CF label occurred in clusters with a distribution comparable to that found in the lamina rara externa. On the abluminal aspect of the endothelium, the plasmalemma proper was extensively, though variably, labeled. Coated pits were heavily labeled, whereas the membranes and stomatal diaphragms of plasmalemmal vesicles and transendothelial channels remained free of CF decoration. In contradistinction with the heavy labeling of their luminal aspects, the abluminal surface of the fenestral diaphragms were free of any CF decoration. Pronase treatment removed all anionic sites detectable by CF binding. The findings establish the existence of differentiated microdomains on the abluminal aspect of the endothelial plasmalemma and suggest that the capillary wall selects permeant macromolecules according to charge, in addition to size.
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PMID:Preferential distribution of anionic sites on the basement membrane and the abluminal aspect of the endothelium in fenestrated capillaries. 681 7

The hepatic uptake of transferrin-bound iron by a nontransferrin receptor (NTR)-mediated process was investigated using the human hepatoma cell line HuH7. Because HuH7 cells also acquire iron from transferrin by a receptor (TR)-mediated process, TR expression was inhibited by transfecting the cells with a plasmid containing human TR complementary DNA in antisense orientation relative to a human cytomegalovirus promoter/enhancer element. Cell clones were obtained that expressed a 50% to 60% reduction in cell surface TR, leading to a corresponding decrease in transferrin and iron uptake compared with wild-type cells. Uptake of transferrin by a second process was nonsaturable and not inhibited by a 100-fold excess of unlabeled transferrin. The amounts of transferrin taken up by the wild-type and antisense cells by this process were similar, showing that it did not involve TR. The proteolytic enzyme Pronase reduced the uptake of transferrin, suggesting that the NTR-mediated process entailed the nonsaturable binding of transferrin to plasma membrane proteins. This process, like the TR-mediated one, involved the internalization and recycling of transferrin, leading to accumulation of iron with time. Iron uptake mediated by NTR process was saturable and displaced by 100-fold excess unlabeled transferrin and reduced by weak bases and metabolic inhibitors. Therefore, the NTR-mediated process entailed transferrin adsorption to membrane-bound proteins, internalization, and release of iron from transferrin by a pH-dependent step followed by the intracellular transport of iron into ferritin and heme by a saturable carrier-mediated mechanism.
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PMID:Transferrin receptor-independent uptake of differic transferrin by human hepatoma cells with antisense inhibition of receptor expression. 867 72